/* * Copyright (C) 2021 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include "radio_modem_utils.h" #define ASSERT_OK(ret) ASSERT_TRUE(ret.isOk()) void RadioModemTest::SetUp() { RadioServiceTest::SetUp(); std::string serviceName = GetParam(); if (!isServiceValidForDeviceConfiguration(serviceName)) { ALOGI("Skipped the test due to device configuration."); GTEST_SKIP(); } radio_modem = IRadioModem::fromBinder( ndk::SpAIBinder(AServiceManager_waitForService(GetParam().c_str()))); ASSERT_NE(nullptr, radio_modem.get()); radioRsp_modem = ndk::SharedRefBase::make(*this); ASSERT_NE(nullptr, radioRsp_modem.get()); radioInd_modem = ndk::SharedRefBase::make(*this); ASSERT_NE(nullptr, radioInd_modem.get()); radio_modem->setResponseFunctions(radioRsp_modem, radioInd_modem); // Assert IRadioSim exists and SIM is present before testing radio_sim = sim::IRadioSim::fromBinder(ndk::SpAIBinder( AServiceManager_waitForService("android.hardware.radio.sim.IRadioSim/slot1"))); ASSERT_NE(nullptr, radio_sim.get()); updateSimCardStatus(); EXPECT_EQ(CardStatus::STATE_PRESENT, cardStatus.cardState); // Assert IRadioConfig exists before testing radio_config = config::IRadioConfig::fromBinder(ndk::SpAIBinder( AServiceManager_waitForService("android.hardware.radio.config.IRadioConfig/default"))); ASSERT_NE(nullptr, radio_config.get()); } /* * Test IRadioModem.setRadioPower() for the response returned. */ TEST_P(RadioModemTest, setRadioPower_emergencyCall_cancelled) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_RADIO_ACCESS)) { GTEST_SKIP() << "Skipping setRadioPower_emergencyCall_cancelled " "due to undefined FEATURE_TELEPHONY_RADIO_ACCESS"; } } // Set radio power to off. serial = GetRandomSerialNumber(); radio_modem->setRadioPower(serial, false, false, false); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); EXPECT_EQ(RadioError::NONE, radioRsp_modem->rspInfo.error); // Set radio power to on with forEmergencyCall being true. This should put modem to only scan // emergency call bands. serial = GetRandomSerialNumber(); radio_modem->setRadioPower(serial, true, true, true); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); EXPECT_EQ(RadioError::NONE, radioRsp_modem->rspInfo.error); // Set radio power to on with forEmergencyCall being false. This should put modem in regular // operation modem. serial = GetRandomSerialNumber(); radio_modem->setRadioPower(serial, true, false, false); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); EXPECT_EQ(RadioError::NONE, radioRsp_modem->rspInfo.error); } /* * Test IRadioModem.enableModem() for the response returned. */ TEST_P(RadioModemTest, enableModem) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY)) { GTEST_SKIP() << "Skipping enableModem " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); if (isSsSsEnabled()) { ALOGI("enableModem, no need to test in single SIM mode"); return; } bool responseToggle = radioRsp_modem->enableModemResponseToggle; ndk::ScopedAStatus res = radio_modem->enableModem(serial, true); ASSERT_OK(res); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); ALOGI("getModemStackStatus, rspInfo.error = %s\n", toString(radioRsp_modem->rspInfo.error).c_str()); ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::MODEM_ERR, RadioError::INVALID_STATE})); // checking if getModemStackStatus returns true, as modem was enabled above if (RadioError::NONE == radioRsp_modem->rspInfo.error) { // wait until modem enabling is finished while (responseToggle == radioRsp_modem->enableModemResponseToggle) { sleep(1); } ndk::ScopedAStatus resEnabled = radio_modem->getModemStackStatus(serial); ASSERT_OK(resEnabled); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); ALOGI("getModemStackStatus, rspInfo.error = %s\n", toString(radioRsp_modem->rspInfo.error).c_str()); ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::MODEM_ERR, RadioError::INVALID_STATE})); // verify that enableModem did set isEnabled correctly EXPECT_EQ(true, radioRsp_modem->isModemEnabled); } } /* * Test IRadioModem.getModemStackStatus() for the response returned. */ TEST_P(RadioModemTest, getModemStackStatus) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY)) { GTEST_SKIP() << "Skipping getModemStackStatus " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); ndk::ScopedAStatus res = radio_modem->getModemStackStatus(serial); ASSERT_OK(res); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); ALOGI("getModemStackStatus, rspInfo.error = %s\n", toString(radioRsp_modem->rspInfo.error).c_str()); ASSERT_TRUE(CheckAnyOfErrors( radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::MODEM_ERR})); } /* * Test IRadioModem.getBasebandVersion() for the response returned. */ TEST_P(RadioModemTest, getBasebandVersion) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY)) { GTEST_SKIP() << "Skipping getBasebandVersion " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); radio_modem->getBasebandVersion(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { EXPECT_EQ(RadioError::NONE, radioRsp_modem->rspInfo.error); } } /* * Test IRadioModem.getDeviceIdentity() for the response returned. */ TEST_P(RadioModemTest, getDeviceIdentity) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY)) { GTEST_SKIP() << "Skipping getDeviceIdentity " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); radio_modem->getDeviceIdentity(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::EMPTY_RECORD})); } } /* * Test IRadioModem.getImei() for the response returned. */ TEST_P(RadioModemTest, getImei) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_GSM)) { GTEST_SKIP() << "Skipping getImei " "due to undefined FEATURE_TELEPHONY_GSM"; } } int32_t aidl_version; ndk::ScopedAStatus aidl_status = radio_modem->getInterfaceVersion(&aidl_version); ASSERT_OK(aidl_status); if (aidl_version < 2) { ALOGI("Skipped the test since getImei is not supported on version < 2"); GTEST_SKIP(); } serial = GetRandomSerialNumber(); radio_modem->getImei(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::EMPTY_RECORD})); } } /* * Test IRadioModem.nvReadItem() for the response returned. */ TEST_P(RadioModemTest, nvReadItem) { serial = GetRandomSerialNumber(); radio_modem->nvReadItem(serial, NvItem::LTE_BAND_ENABLE_25); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE}, CHECK_GENERAL_ERROR)); } } /* * Test IRadioModem.nvWriteItem() for the response returned. */ TEST_P(RadioModemTest, nvWriteItem) { serial = GetRandomSerialNumber(); NvWriteItem item; memset(&item, 0, sizeof(item)); item.value = std::string(); radio_modem->nvWriteItem(serial, item); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE}, CHECK_GENERAL_ERROR)); } } /* * Test IRadioModem.nvWriteCdmaPrl() for the response returned. */ TEST_P(RadioModemTest, nvWriteCdmaPrl) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_CDMA)) { GTEST_SKIP() << "Skipping nvWriteCdmaPrl " "due to undefined FEATURE_TELEPHONY_CDMA"; } } serial = GetRandomSerialNumber(); std::vector prl = {1, 2, 3, 4, 5}; radio_modem->nvWriteCdmaPrl(serial, std::vector(prl)); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE}, CHECK_GENERAL_ERROR)); } } /* * Test IRadioModem.nvResetConfig() for the response returned. */ TEST_P(RadioModemTest, nvResetConfig) { serial = GetRandomSerialNumber(); radio_modem->nvResetConfig(serial, ResetNvType::FACTORY_RESET); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::REQUEST_NOT_SUPPORTED})); } // wait until modem reset finishes sleep(10); } /* * Test IRadioModem.getHardwareConfig() for the response returned. */ TEST_P(RadioModemTest, getHardwareConfig) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY)) { GTEST_SKIP() << "Skipping getHardwareConfig " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); radio_modem->getHardwareConfig(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE}, CHECK_GENERAL_ERROR)); } } /* * The following test is disabled due to b/64734869 * * Test IRadioModem.requestShutdown() for the response returned. */ TEST_P(RadioModemTest, DISABLED_requestShutdown) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_RADIO_ACCESS)) { GTEST_SKIP() << "Skipping DISABLED_requestShutdown " "due to undefined FEATURE_TELEPHONY_RADIO_ACCESS"; } } serial = GetRandomSerialNumber(); radio_modem->requestShutdown(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE}, CHECK_GENERAL_ERROR)); } } /* * Test IRadioModem.getRadioCapability() for the response returned. */ TEST_P(RadioModemTest, getRadioCapability) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_RADIO_ACCESS)) { GTEST_SKIP() << "Skipping getRadioCapability " "due to undefined FEATURE_TELEPHONY_RADIO_ACCESS"; } } serial = GetRandomSerialNumber(); radio_modem->getRadioCapability(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { EXPECT_EQ(RadioError::NONE, radioRsp_modem->rspInfo.error); } } /* * Test IRadioModem.setRadioCapability() for the response returned. */ TEST_P(RadioModemTest, setRadioCapability) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_RADIO_ACCESS)) { GTEST_SKIP() << "Skipping setRadioCapability " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); RadioCapability rc; memset(&rc, 0, sizeof(rc)); rc.logicalModemUuid = std::string(); radio_modem->setRadioCapability(serial, rc); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::INVALID_ARGUMENTS, RadioError::INVALID_STATE}, CHECK_GENERAL_ERROR)); } } /* * Test IRadioModem.getModemActivityInfo() for the response returned. */ TEST_P(RadioModemTest, getModemActivityInfo) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY_RADIO_ACCESS)) { GTEST_SKIP() << "Skipping getModemActivityInfo " "due to undefined FEATURE_TELEPHONY_RADIO_ACCESS"; } } serial = GetRandomSerialNumber(); radio_modem->getModemActivityInfo(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::REQUEST_NOT_SUPPORTED})); } } /* * Test IRadioModem.sendDeviceState() for the response returned. */ TEST_P(RadioModemTest, sendDeviceState) { if (telephony_flags::enforce_telephony_feature_mapping()) { if (!deviceSupportsFeature(FEATURE_TELEPHONY)) { GTEST_SKIP() << "Skipping sendDeviceState " "due to undefined FEATURE_TELEPHONY"; } } serial = GetRandomSerialNumber(); radio_modem->sendDeviceState(serial, DeviceStateType::POWER_SAVE_MODE, true); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_modem->rspInfo.type); EXPECT_EQ(serial, radioRsp_modem->rspInfo.serial); std::cout << static_cast(radioRsp_modem->rspInfo.error) << std::endl; if (cardStatus.cardState == CardStatus::STATE_ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp_modem->rspInfo.error, {RadioError::NONE, RadioError::REQUEST_NOT_SUPPORTED})); } }